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Intel Selling 3D Smartphone

January 18, 2016 by  
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Intel has created a new smartphone with a 3D RealSense camera that can recognize objects and detect motion and gestures, much like a Kinect camera.

The smartphone is being made available as a reference device for anyone interested in discovering new uses for 3D cameras in handsets. The 3D camera is a smaller and more advanced version of the RealSense cameras in PCs and tablets.

For $399, users will get an Android smartphone with a 6-inch screen that can display images at a 2560 x 1440-pixel resolution. The RealSense ZR300 depth camera, which is placed at the edge of the phone, can capture 10 million points per second. The phone also has a 2-megapixel front camera and 8-megapixel rear camera.

The phone isn’t for daily use, but more for capturing 3D images, taking cool selfies and experimenting with the RealSense camera. It has only 3G connectivity, so aside from the camera features it isn’t very useful beyond making basic phone calls. It has an Intel Atom x7-Z8700 processor, which is in Microsoft’s Surface 3, so don’t expect long battery life. It has 64GB of storage, Bluetooth, Wi-Fi and an HDMI port.

Users can reserve the smartphone; Intel did not provide a shipping date. It will only ship to U.S. customers.

Source- http://www.thegurureview.net/mobile-category/intels-3d-smartphone-to-go-on-sale-for-399.html

Intel Shows Off The Xeon SoC

March 24, 2015 by  
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Intel has announced details of its first Xeon system on chip (SoC) which will become the new the Xeon D 1500 processor family.

Although it is being touted as a server, storage and compute applications chip at the “network edge”, word on the street is that it could be under the bonnet of robots during the next apocalypse.

The Xeon D SoCs use the more useful bits of the E3 and Atom SoCs along with 14nm Broadwell core architecture. The Xeon D chip is expected to bring 3.4x better performance per watt than previous Xeon chips.

Lisa Spelman, Intel’s general manager for the Data Centre Products Group, lifted the kimono on the eight-core 2GHz Xeon D 1540 and the four-core 2.2GHz Xeon D 1520, both running at 45W. It also features integrated I/O and networking to slot into microservers and appliances for networking and storage, the firm said.

The chips are also being touted for industrial automation and may see life powering robots on factory floors. Since simple robots can run on basic, low-power processors, there’s no reason why faster chips can’t be plugged into advanced robots for more complex tasks, according to Intel.

Source

Amazon Web Services Goes Zocalo

December 4, 2014 by  
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Amazon Web Services (AWS) has announced two much-needed boosts to its fledgling Zocalo productivity platform, making the service mobile and allowing for file capacities of up to 5TB.

The service, which is designed to do what Drive does for Google and what Office 365 does for software rental, has gained mobile apps for the first time as Zocalo appears on the Google Play store and Apple App Store.

Amazon also mentions availability on the Kindle store, but we’re not sure about that bit. We assume it means the Amazon App Store for Fire tablet users.

The AWS blog says that the apps allow the user to “work offline, make comments, and securely share documents while you are in the air or on the go.”

A second announcement brings Zocalo into line with the AWS S3 storage on which it is built. Users will receive an update to their Zocalo sync client which will enable file capacities up to 5TB, the same maximum allowed by the Amazon S3 cloud.

To facilitate this, multi-part uploads will allow users to carry on an upload from where it was after a break, deliberate or accidental.

Zocalo was launched in July as the fight for enterprise storage productivity hots up. The service can be trialled for 30 days free of charge, offering 200GB each for up to 50 users.

Rival services from companies including the aforementioned Microsoft and Google, as well as Dropbox and Box, coupled with aggressive price cuts across the sector, have led to burgeoning wars for the hearts and minds of IT managers as Microsoft’s Office monopoly begins to wane.

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Amazon Intel Zeon Inside

November 26, 2014 by  
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Amazon has become the latest vendor to commission a customized Xeon chip from Intel to meet its exact compute requirements, in this case powering new high-performance C4 virtual machine instances on the AWS cloud computing platform.

Amazon announced at the firm’s AWS re:Invent conference in Las Vegas that the latest generation of compute-optimized Amazon Elastic Compute Cloud (EC2) virtual machine instances offer up to 36 virtual CPUs and 60GB of memory.

“These instances are designed to deliver the highest level of processor performance on EC2. If you’ve got the workload, we’ve got the instance,” said AWS chief evangelist Jeff Barr, detailing the new instances on the AWS blog.

The instances are powered by a custom version of Intel’s latest Xeon E5 v3 processor family, identified by Amazon as the Xeon E5-2666 v3. This runs at a base speed of 2.9GHz, and can achieve clock speeds as high as 3.5GHz with Turbo boost.

Amazon is not the first company to commission a customized processor from Intel. Earlier this year, Oracle unveiled new Sun Server X4-4 and Sun Server X4-8 systems with a custom Xeon E7 v2 processor.

The processor is capable of dynamically switching core count, clock frequency and power consumption without the need for a system level reboot, in order to deliver an elastic compute capability that adapts to the demands of the workload.

However, these are just the vendors that have gone public; Intel claims it is delivering over 35 customized versions of the Intel Xeon E5 v3 processor family to various customers.

This is an area the chipmaker seems to be keen on pursuing, especially with companies like cloud service providers that purchase a great many chips.

“We’re really excited to be working with Amazon. Amazon’s platform is the landing zone for a lot of new software development and it’s really exciting to partner with those guys on a SKU that really meets their needs,” said Dave Hill, ‎senior systems engineer in Intel’s Datacenter Group.

Also at AWS re:Invent, Amazon announced the Amazon EC2 Container Service, adding support for Docker on its cloud platform.

Currently available as a preview, the EC2 Container Service is designed to make it easy to run and manage distributed applications on AWS using containers.

Customers will be able to start, stop and manage thousands of containers in seconds, scaling from one container to hundreds of thousands across a managed cluster of Amazon EC2 instances, the firm said.

Source

Qualcomm’s Snapdragon Goes WiGi

October 31, 2014 by  
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he WiGig standard has been around since 2009, but we haven’t really seen it hitting that many retail devices. Back at IDF 2014, Intel demonstrated WiGig 802.11ad video, peripherals, 4K video transfer and it promised that Skylake based laptops will come out of the box with the technology.

WiGig will let you transfer up to 7Gbpps of audio, video or data via 2.4, 5 or 6GHz bands and is as fast as eight-antenna 802.11ac and nearly 50 times faster than highest 802.11n rate. It is backward compatible with WiFi standards, but due to its high frequency it is limited to short distances, usually up to 10 meters, cannot really penetrate walls but it can propagate by reflecting off of walls, ceilings or objects using beam forming.

Now Qualcomm showcased this technology for the first time and promised it inside Snapdragon 810 based devices. Qualcomm demonstrated peer-to-peer connection and transfer of 4K video between two 20nm Snapdragon 810 based tablets. One of the tablets was the sync side and it was connected directly to a 4K TV and it was clear that you could play a content from one tablet and sync it to the second one.

WiGig’s 7Gbps translates to 875MB per second in the best case scenario. The Qualcomm demo shows a Plutonium MSM8994 based tablet hitting up to 187MB a second (1.5 Gbit per second) available for data transfer, with 4K multi-device streaming on the side. WiGig can possibly get to external storage, enabling faster NAS systems, future peripherals such as keyboard and mouse and on a longer run it can completely eliminate the necessity for docking stations. It will take some time but this is the grand idea.

It remains to be seen when we will be able to buy first Snapdragon 810 device with 802.11ad WiGig abilities. Qualcomm mentioned 2015 a number of times, but there’s nothing more specific than that. A potential problem for this standard might be the speed of flash storage that is used in tablets and phones today. According to Androbench, the HTC One M8 can sequentially read 92.29 MB/s, sequentially write only 17 MB/s, while Nvidia’s Shield tablet can sequentially read 67.75 MB/s, and write only 14.09 MB/s.

The performance gets even less impressive with smaller files, but with numbers we are getting from latest 2014 devices, the flash has to increase speed up to 10 times in order to be ready to write files at 150MB. For theoretical maximum of ridiculously fast 875 MB/s we need about 50 times faster memory that the 14-17MB/s write speed available in the current generation of high end mobile devices.

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Intel Sampling Xeon D 14nm

September 24, 2014 by  
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Intel has announced that it is sampling its Xeon D 14nm processor family, a system on chip (SoC) optimized to deliver Intel Xeon processor performance for hyperscale workloads.

Announcing the news on stage during a keynote at IDF in San Francisco, Intel SVP and GM of the Data Centre Group, Diane Bryant, said that the Intel Xeon processor D, which initially was announced in June, will be based on 14nm process technology and be aimed at mid-range communications.

“We’re pleased to announce that we’re sampling the third generation of the high density [data center system on a chip] product line, but this one is actually based on the Xeon processor, called Xeon D,” Bryant announced. “It’s 14nm and the power levels go down to as low as 15 Watts, so very high density and high performance.”

Intel believes that its Xeon D will serve the needs of high density, optimized servers as that market develops, and for networking it will serve mid-range routers as well as other network appliances, while it will also serve entry and mid-range storage. So, Intel claimed, you will get all of the benefits of Xeon-class reliability and performance, but you will also get a very small footprint and high integration of SoC capability.

This first generation Xeon D chip will also showcase high levels of I/O integrations, including 10Gb Ethernet, and will scale Intel Xeon processor performance, features and reliability to lower power design points, according to Intel.

The Intel Xeon processor D product family will also include data centre processor features such as error correcting code (ECC).

“With high levels of I/O integration and energy efficiency, we expect the Intel Xeon processor D product family to deliver very competitive TCO to our customers,” Bryant said. “The Intel Xeon processor D product family will also be targeted toward hyperscale storage for cloud and mid-range communications market.”

Bryant said that the product is not yet available, but it is being sampled, and the firm will release more details later this year.

This announcement comes just days after Intel launched its Xeon E5 v2 processor family for servers and workstations.

Source

Vendors Testing New Xeon Processors

September 11, 2014 by  
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Intel is cooking up a hot batch of Xeon processors for servers and workstations, and system vendors have already designed systems that are ready and raring to go as soon as the chips become available.

Boston is one of the companies doing just that, and we know this because it gave us an exclusive peek into its labs to show off what these upgraded systems will look like. While we can’t share any details about the new chips involved yet, we can preview the systems they will appear in, which are awaiting shipment as soon as Intel gives the nod.

Based on chassis designs from Supermicro, with which Boston has a close relationship, the systems comprise custom-built solutions for specific user requirements.

On the workstation side, Boston is readying a mid-range and a high-end system with the new Intel Xeon chips, both based on two-socket Xeon E5-2600v3 rather than the single socket E5-1600v3 versions.

There’s also the mid-range Venom 2301-12T, which comes in a mid-tower chassis and ships with an Nvidia Quadro K4000 card for graphics acceleration. It comes with 64GB of memory and a 240GB SSD as a boot device, plus two 1TB Sata drives configured as a Raid array for data storage.

For extra performance, Boston has also prepared the Venom 2401-12T, which will ship with faster Xeon processors, 128GB of memory and an Nvidia Quadro K6000 graphics card. This also has a 240GB SSD as a boot drive, with two 2TB drives configured as a Raid array for data storage.

Interestingly, Intel’s new Xeon E5-2600v3 processors are designed to work with 2133MHz DDR4 memory instead of the more usual DDR3 RAM, and as you can see in the picture below, DDR4 DIMM modules have slightly longer connectors towards the middle.

For servers, Boston has prepared a 1U rack-mount “pizza box” system, the Boston Value 360p. This is a two-socket server with twin 10Gbps Ethernet ports, support for 64GB of memory and 12Gbps SAS Raid. It can also be configured with NVM Express (NVMe) SSDs connected to the PCI Express bus rather than a standard drive interface.

Boston also previewed a multi-node rack server, the Quattro 12128-6, which is made up of four separate two-socket servers inside a 2U chassis. Each node has up to 64GB of memory, with 12Gbps SAS Raid storage plus a pair of 400GB SSDs.

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Intel Outs New Xeon Chipset

March 4, 2014 by  
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Intel has released details about its new Xeon E7 v2 chipset. The Xeon processor E7 8800/4800/2800 v2 product family is designed to support up to 32-socket servers with configurations of up to 15 processing cores and up to 1.5 terabytes of memory per socket.

The chip is designed for the big data end of the Internet of Things movement, which the processor maker projected will grow to consist of at least 30 billion devices by 2020. Beyond two times better performance power, Intel is promising a few other upgrades with the next generation of this data-focused chipset, including triple the memory capacity, four times the I/O bandwidth and the potential to reduce total cost of ownership by up to 80 percent.

The 15-core variants with the largest thermal envelope (155W) run at 2.8GHz with 37.5MB of cache and 8 GT/s QuickPath connectivity. The lowest-power models in the list have 105W TDPs and run at 2.3GHz with 24MB of cache and 7.2 GT/s of QuickPath bandwidth. There was also talk of 40W, 1.4GHz models at ISSCC but they have not been announced yet.

Intel has signed on nearly two dozen hardware partners to support the platform, including Asus, Cisco, Dell, EMC, and Lenovo. On the software end, Microsoft, SAP, Teradata, Splunk, and Pivotal also already support the new Xeon family. IBM and Oracle are among the few that support Xeon E7 v2 on both sides of the spectrum.

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Malware Infections On Android Rising

July 8, 2013 by  
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An increasing number of Android phones are infected with mobile malware programs that are capable of turning the handsets into spying devices, according to a report from Kindsight Security Labs, a subsidiary of telecommunications equipment vendor Alcatel-Lucent.

The vast majority of mobile devices infected with malware are running the Android operating system and a third of the top 20 malware threats for Android by infection rate fall into the spyware category, Kindsight said in a report released Tuesday that covers the second quarter of 2013.

The Alcatel-Lucent subsidiary sells security appliances to ISPs (Internet service providers) and mobile network operators that can identify known malware threats and infected devices by analyzing the network traffic.

Data collected from its product deployments allows the company to compile statistics about how many devices connected to mobile or broadband networks are infected with malware and determine what are the most commonly detected threats.

The malware infection rate for devices connected to mobile networks is fairly low, averaging at 0.52%, Kindsight said in its report. These infected devices include mobile phones as well as Windows laptops that use a mobile connection through a phone, a 3G USB modem or a mobile hotspot device.

In January the number of infected mobile phones accounted for slightly more than 30% of all infected devices connected to mobile networks, but by June they grew to more than 50%.

The vast majority of infected mobile phones run Android. Those running BlackBerry, iOS and other operating systems represent less than 1% of infected mobile devices, Kindsight said.

When calculated separately, on average more than 1% of Android devices on mobile networks are infected with malware, Kindsight said in its report.

The malware threat most commonly seen on Android devices was an adware Trojan program called Uapush.A that sends SMS messages and steals information, Kindsight said. Uapush.A was responsible for around 53% of the total number of infections detected on Android devices.

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Is This A Mobile First World?

June 3, 2013 by  
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Judging from the number of people engrossed in activities with their smartphones on the sidewalk, in their cars and in public places, mobile seems to have stolen our attention away from the wired Internet and traditional TV.

However, there is a ways to go before mobile platforms become the primary place where consumers turn for entertainment and getting things done, players at  CTIA Wireless trade show said.

Nokia Siemens Networks announced new capabilities in its network software to make video streams run more smoothly over mobile networks. Among other things, the enhancements can reduce video stalling by 90 percent, according to the company. But even Sandro Tavares, head of marketing for NSN’s Mobile Core business, sees “mobile-first” viewing habits as part of the future.

“Now that the networks are providing a better capacity, a better experience with mobile broadband, mobile-first will come,” Tavares said. “Because the experiences they have with the devices are so good, these devices … start to be their preferred screen, their first screen.

“This is a trend, and this is something that will not change,” Tavares said. But he thinks it’s too early to build networks assuming consumers will turn to tablets and phones as their primary sources of entertainment. “Do you have to be prepared for mobile-first now? Probably not. You have to be able to keep the pace.”

For AT&T, mobile-first is a top priority for its own internal apps, ensuring employees can do their jobs wherever they are, said Kris Rinne, the carrier’s senior vice president of network technologies. But to make it possible over the network, a range of new technologies and relationships may have to come together, she said.

For example, giving the best possible performance for streaming video and other uses of mobile may require steering traffic to the right network if both cellular and Wi-Fi are available. AT&T is developing an “intelligent network selection” capability to do this, Rinne said. When AT&T starts to deliver voice over LTE, it will stay on the cellular network — at least in the early days — because the carrier has more control over quality of service on that system, she said.

Other issues raised by mobile-first include security of packets going over the air and rights for content that subscribers are consuming primarily on mobile devices instead of through TV and other traditional channels, Rinne said.

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